一、个人简介
博士,教授、硕士生导师、上海市曙光学者。2015年上海市研究生优秀学位论文指导教师,2015年上海市人才发展基金获得者,2012-2013年国家留学基金委公派Cornell University访问学者。曾获上海理工大学教学成果奖“一等奖”(序2)和“二等奖”(序2)。发表学术论文100余篇,其中SCI论文60余篇,论文总被1200多次,单篇最高被引100多次,H指数20。
二、主要学习与工作经历
2006年8月-至今上海理工大学理学院讲师、副教授、教授
2012年8月-2013年8月Cornell University访问副教授
2003年9月-2006年6月上海交通大学物理系博士
1996年9月-2003年7月安徽大学物理系本科、硕士
三、主要科研工作与成绩
主要从事磁性软物质、磁性胶体材料的新型光学、磁光特性及其应用的研究,代表性论文:
1. Shengli Pu, Lianmin Mao, Tianjun Yao, Jinfeng Gu, Mahieddine Lahoubi, and Xianglong Zeng, “Microfiber coupling structures for magnetic field sensing with enhanced sensitivity,” IEEE Sensors Journal 17(18), 5857-5861 (2017).
2. Jie Rao, Shengli Pu, Tianjun Yao, and Delong Su, “Ultrasensitive magnetic field sensing based on refractive-index-matched coupling,” Sensors 17(7), 1590 (2017).
3. Delong Su, Shengli Pu, Lianmin Mao, Zhaofang Wang, and Kai Qian, “A photonic crystal magnetic field sensor using a shoulder-coupled resonant cavity infiltrated with magnetic Fluid,” Sensors 16(12), 2157 (2016).
4. Lianmin Mao, Shengli Pu, Delong Su, Zhaofang Wang, Xianglong Zeng, and Mahieddine Lahoubi, “Magnetic field sensor based on cascaded microfiber coupler with magnetic fluid,” J. Appl. Phys. 120(9), 093102 (2016).
5. Shengli Pu, Longfeng Luo, Jiali Tang, Lianmin Mao, and Xianglong Zeng, “Ultrasensitive refractive-index sensors based on tapered fiber coupler with Sagnac loop,” IEEE Photon. Technol. Lett. 28(10), 1073-1076 (2016).
6. Longfeng Luo, Shengli Pu, Jiali Tang, Xianglong Zeng, and Mahieddine Lahoubi, “Highly sensitive magnetic field sensor based on microfiber coupler with magnetic fluid,” Appl. Phys. Lett. 106, 193507 (2015).
7. Longfeng Luo, Shengli Pu, Jiali Tang, Xianglong Zeng, and Mahieddine Lahoubi, “Reflective all-fiber magnetic field sensor based on microfiber and magnetic fluid,” Opt. Express 23(14), 18133-18142 (2015).
8. Longfeng Luo, Shengli Pu, Shaohua Dong, and Jiali Tang, “Fiber-optic magnetic field sensor using magnetic fluid as the cladding,” Sensors and Actuators A: Physical236, 67-72 (2015).
9. Jiali Tang, Shengli Pu, Longfeng Luo, and Shaohua Dong, “Simultaneous measurement of magnetic field and temperature based on magnetic fluid-clad long period fiber grating,” J. Eur. Opt. Soc.-Rapid 10, 15025 (2015).
10. Weizheng Lei, and Shengli Pu, “Tunable slow light with large bandwidth and low-dispersion in photonic crystal waveguide infiltrated with magnetic fluids,” J. Magn. 20(2), 110-113 (2015).
11. Jiali Tang, Shengli Pu, Shaohua Dong, and Longfeng Luo, “Magnetic field sensing based on magnetic-fluid-clad multimode-singlemode-multimode fiber structures,” Sensors 14, 19086-19094 (2014).
12. Shaohua Dong, Shengli Pu, and Haotian Wang,“Magnetic field sensing based on magnetic-fluid-clad fiber-optic structure with taper-like and lateral-offset fusion splicing,” Opt. Express 22, 19108-19116 (2014).
13. Shengli Pu, and Shaohua Dong, “Magnetic field sensing based on magnetic-fluid-clad fiber-optic structure with up-tapered joints,” IEEE Photon. J. 6, 5300206 (2014).
14. Shengli Pu, Shaohua Dong, and Juan Huang, “Tunable slow light based on magnetic-fluid-infiltrated photonic crystal waveguides,” J. Opt. 16, 045102 (2014).
15. Yang Liu, Lei Shi, Xinbiao Xu, Ping Zhao, Zheqi Wang, Shengli Pu, and Xinliang Zhang, “All-optical tuning of magnetic-fluid-filled optofluidic ring resonator,” Lab Chip 14, 3004-3010 (2014).
16. Shaohua Dong, Shengli Pu,and Juan Huang, “Magnetic field sensing based on magneto-volume variation of magnetic fluids investigated by air-gap Fabry-Pérot fiber interferometers,” Appl. Phys. Lett. 103, 111907 (2013).
17. Haotian Wang, Shengli Pu, Ning Wang, Shaohua Dong,and Juan Huang, “Magnetic field sensing based on singlemode–multimode–singlemode fiber structures using magnetic fluids as cladding,” Opt. Lett. 38, 3765-3768 (2013).
18. Shengli Pu, Haotian Wang, Ning Wang, and Xianglong Zeng, “Extremely large bandwidth and ultralow-dispersion slow light in photonic crystal waveguides with magnetically controllability,” Appl. Phys. B 112, 223-229 (2013).
19. Shengli Pu, Haotian Wang, Ning Wang, and Xianglong Zeng, “Tunable flat band slow light in reconfigurable photonic crystal waveguides based on magnetic fluids,” Opt. Commun. 311, 16-19 (2013).
20. Haotian Wang, Shengli Pu, Arash Gharibi, and Ning Wang, “Generation and versatile transmission properties of ring-shaped beams based on thermal lens effect of magnetic fluids and ring-limited windows,” Opt. Commun. 286, 211-216 (2013).
21. Hongzhu Ji, Shengli Pu, Xiang Wang, Guojun Yu, Ning Wang, and Haotian Wang, “Magnetic field sensing based on capillary filled with magnetic fluids,” Appl. Opt. 51, 6528-6538 (2012).
22. Hongzhu Ji, Shengli Pu, Xiang Wang, and Guojun Yu, “Influence of switchable magnetic field on the modulation property of nanostructured magnetic fluids,” Opt. Commun. 285, 4435-4440 (2012).
23. Xiang Wang, Shengli Pu, Hongzhu Ji, and Guojun Yu, “Enhanced magnetic-field-induced optical properties of nanostructured magnetic fluids by doping nematic liquid crystals,” Nanoscale Res. Lett. 7, 249 (2012).
24. Hongzhu Ji, Shengli Pu, Xiang Wang, and Guojun Yu, “Magnetic field sensing based on V-shaped groove filled with magnetic fluids,” Appl. Opt. 51, 1010-1020 (2012).
25. Shengli Pu, Xuekun Bai, and Lunwei Wang, “Temperature dependence of photonic crystals based on thermoresponsive magnetic fluids,” J. Magn. Magn. Mater. 323, 2866-2871 (2011).
26. Xuekun Bai, Shengli Pu, and Lunwei Wang, “Optical relaxation properties of magnetic fluids under externally magnetic fields,” Opt. Commun. 284, 4929-4935 (2011).
27. Xuekun Bai, Shengli Pu, Lunwei Wang, Xiang Wang, Guojun Yu, and Hongzhu Ji, “Tunable magneto-optic modulation based on magnetically responsive nanostructured magnetic fluids,” Chin. Phys. B 20, 107501 (2011).
28. Shengli Pu, Min Dai, and Guoqing Sun, “Longitudinal field-induced polarized light transmittance of magnetic fluids,” Opt. Commun. 283, 4012-4016 (2010).
29. Shengli Pu, and Ming Liu, “Tunable photonic crystals based on MnFe2O4 magnetic fluids by magnetic fields,” J. Alloys Compd. 481, 851-854 (2009).
30. Shengli Pu, Lanfang Yao, Feifei Guan, and Ming Liu, “Threshold-tunable optical limiters based on nonlinear refraction in ferrosols,” Opt. Commun. 282, 908-913 (2009).
31. Shengli Pu, Tao Geng, Xianfeng Chen, Xianglong Zeng, Ming Liu, and Ziyun Di, “Tuning the band gap of self-assembled superparamagnetic photonic crystals in colloidal magnetic fluids using external magnetic fields,” J. Magn. Magn. Mater. 320, 2345-2349 (2008).
32. Shengli Pu, Xianfeng Chen, Ziyun Di, Tao Geng, and Yuxing Xia, “Electrical properties of nanostructured magnetic colloid and influence of magnetic field,” Chin. Phys. Lett. 24, 3253-3256 (2007).
33. Shengli Pu, Xianfeng Chen, Ziyun Di, and Yuxing Xia, “Relaxation property of the magnetic-fluid-based fiber-optic evanescent field modulator,” J. Appl. Phys. 101, 053532 (2007).
34. Shengli Pu, Xianfeng Chen, Yuping Chen, Yonghao Xu, Weijun Liao, Lijun Chen, and Yuxing Xia, “Fiber-optic evanescent field modulator using a magnetic fluid as the cladding,” J. Appl. Phys. 99, 093516 (2006).
35. Shengli Pu, Xianfeng Chen, Lijun Chen, Weijun Liao, Yuping Chen, and Yuxing Xia, “Suppressing the thermal lens effect by magnetic-field-induced mass transfer and phase separation in a magnetic fluid,” Appl. Phys. Lett. 87, 021905 (2005).
36. Shengli Pu, Xianfeng Chen, Lijun Chen, Weijun Liao, Yuping Chen, and Yuxing Xia, “Tunable magnetic fluid grating by applying a magnetic field,” Appl. Phys. Lett. 87, 021901 (2005).
37. Shengli Pu, Xianfeng Chen, Yuping Chen, Weijun Liao, Lijun Chen, and Yuxing Xia, “Measurement of the refractive index of a magnetic fluid by the retroreflection on the fiber-optic end face,” Appl. Phys. Lett. 86, 171904 (2005).
38. Shengli Pu, Xianfeng Chen, Weijun Liao, Lijun Chen, Yuping Chen, and Yuxing Xia, “Laser self-induced thermo-optical effects in a magnetic fluid,” J. Appl. Phys. 96, 5930-5932 (2004).
四、主要社会学术团体兼职
国际期刊Journal of Nanofluids编辑、上海市物理学会第16届理事会理事、Journal of Nanomaterials客座主编(Special Issue, 2014年5-12月)。
五、主要研究方向
磁光效应,光学材料,导波光学,光纤技术与传感,光电子器件,纳米光子学等。
六、联系方式
上海市军工路334号上海理工大学理学院 200093
E-mail: shlpu@usst.edu.cn
http://scholar.google.com/citations?user=CdyXN5MAAAAJ